Anais da Academia Brasileira de Ciências (Aug 2023)

Zinc deficiency disrupts pain signaling promoting nociceptive but not inflammatory pain in mice

  • CLEVERTON KLEITON F. LIMA,
  • THÁYNA SISNANDE,
  • RAFAELA V. DA SILVA,
  • VANESSA DOMITILLA C.S. DA SILVA,
  • JULIO J. DO AMARAL,
  • SORAYA M. OCHS,
  • BRUNA L.R. DOS SANTOS,
  • ANA LUÍSA P. DE MIRANDA,
  • LUÍS MAURÍCIO T.R. LIMA

DOI
https://doi.org/10.1590/0001-3765202320220914
Journal volume & issue
Vol. 95, no. suppl 1

Abstract

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Abstract Zinc (Zn) is an essential micronutrient involved in the physiology of nervous system and pain modulation. There is little evidence for the role of nutritional Zn alternations to the onset and progression of neuropathic (NP) and inflammatory pain. The study investigated the effects of a zinc restricted diet on the development of pain. Weaned mice were submitted to a regular (38 mg/kg of Zn) or Zn deficient (11 mg/kg of Zn) diets for four weeks, pain responses evaluated (mechanical, cold and heat allodynia; formalin- and carrageenan-induced inflammatory hypernociception), plasma and tissues collected for biochemical and metabolomic analysis. Zn deficient diet inhibited animal growth (37%) and changed mice sensitivity pattern, inducing an intense allodynia evoked by mechanical, cold and heat stimulus for four weeks. The inflammatory pain behavior of formalin test was drastically reduced or absent when challenged by an inflammatory stimulus. Zn restriction also reduce plasma TNF, increase neuronal activation, oxidative stress, indicating a disruption of the immune response. Liver metabolomic analyses suggest a downregulation of lipid metabolism of arachidonic acid. Zn restriction since weaned disrupts pain signaling considerably and reduce inflammatory pain. Zn could be considered a predisposing factor for the onset of chronic pain such as painful neuropathies.

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